DE4135388A1 - RECORD MATERIAL FOR INK JET PROCEDURE - Google Patents

Abstract

The invention relates to a recording material for the ink-jet process, having an ink receiving layer which contains a hydrophilic binder and an oxidised polyethylene, where the oxidised polyethylene is in the form of a cation-actively emulsified oxidised polyethylene in the aqueous coating composition used for the ink receiving layer.

Description

The invention relates to a recording material for the ink jet method and a coating composition for the production an ink receiving layer for the ink jet method.

In inkjet processes, droplets become a record liquid (ink) according to various techniques on the up applied drawing material.

There are z. B. a method (Hertz method), which by a digital electronic control of fine ink droplets, which are squeezed out of special nozzles, the printing of Very high resolution images directly from electronic Data allowed.

With increasing improvement in the operation of ink jet Printers are getting higher and higher to the recording materials Requirements made. The herge by ink jet method posed picture should have over

• - high resolution,
• - high color density,
• - enough color gradations,
• - good smudge resistance.

To achieve this, he must have the following basic conditions to be filled:

• - The recording material must the ink as possible absorb quickly,
• - The sprayed ink droplets must be in as possible exact (circular) and exactly limited the other run,
• - the ink diffusion in the recording material is allowed not be too high, hence the diameter of the inks No more than absolutely necessary is being
• - The recording material must have a glossy Oberflä have a high visual reflection density and to achieve a great brilliance of the colors.

These are partly contradictory Demands, z. B. means too fast setting of Wipe resistance that an ink drop is not or only slightly diverge and thereby the clarity of the resulting Image is disadvantaged.

Starting from the provided to the recording material Demands are still looking for ways to a picture with the highest possible color density with the highest possible wiping speed lead.

A recording material for multicolored ink jet printing usually consists of a carrier and one attached to it arranged ink-receiving layer.  

As a carrier, a plastic film (polyester resin, diacetate resin) or paper u. Ä. Be used.

The ink receiving layers basically consist of one Pigment / binder mixture. The pigments serve, in addition to the Increasing the whiteness of the material, for retention of the material Dyes from the recording liquid on the surface of the leaf. A high pigment concentration leads to great Porosity of the layer (DE-PS 30 24 205). This will indeed Good wiping resistance is achieved, but at the same time also pigments from the ink in the interior of the recording materials, which ver the color density of the image ver deteriorated.

It is known for an ink jet recording material with a Gelatin coating provided paper to use (DE-PS 22 34 823). By this coating, the smudge resistance ver improves and the resolution can be increased. adversely in this recording material is especially that the up splashed pictographs in the desired short time, but only after more than 10 sec. sufficiently smudge-proof are. Another disadvantage is that the ink droplets are not diverge sufficiently and fast enough.

In DE-OS 30 16 766 a recording material bean sprucht, which by applying a coating of a water-soluble polymer on a paper support by an internal sizing a defined water absorption capacity has high density and resolution of the printed image of the guarantee.  

A disadvantage of this recording material is the fact that the material to achieve the desired color density after applying the ink-receiving layer additionally in one must be smoothed separate operation, z. B. by An use of a gloss or supercalender.

In the Japanese document JP 58-193 185 are on a Carrier applied two coats. The top of polyvinylal The existing layer is intended for fast ink absorption tion. The lower one contains a synthetic silica tende layer is to ensure a high color density. by It is part of the fact that for the preparation of this Aufnahmema terials several operations are required, namely the separate application of two layers and smoothing with Help of a calender.

The object of the present invention is to provide a recording to propose material for the ink jet process, which the does not have the disadvantages mentioned above and in particular by a high color density and a high resolving power at the same time quickly achievable smudge resistance of the inks distinguishes droplets.

The object of the invention is also a coating mass for producing an ink receiving layer for an ink To provide jet recording material, the manufacture a recording material without the above-mentioned Disadvantages enabled.  

This object is achieved in that a polyolefinbe Layered base paper an ink receiving layer aufgetra which is a hydrophilic binder and an oxidized Polyethylene, wherein the oxidized polyethylene in the aqueous coating used for the ink receiving layer as a cationically emulsified oxidized polyene is present.

The hydrophilic binder is in a be preferred form of the invention to a proteinaceous Bindemit tel, especially gelatin.

The oxidized contained in the ink receiving layer Polyethylene is in the coating used for this purpose mass in a cationically emulsified form. Preferably is the oxidized polyethylene with compounds from the group the fatty amines, fatty amine acetates, the quaternary ammonium compound applications u. Ä. cationically emulsified. In particular, this is oxi polyethylenes cationic with stearyl fatty amine acetate emulsified oxidized polyethylene.  

The amount of cationically emulsified oxidized polyethylene in the aqueous coating composition is between 0.1 and 5 wt .-%, in particular between 1 and 4 wt .-%.

The amount of binder in the ink receiving layer be carries at least 50% by weight, preferably 70 to 99% by weight, based on the dry layer.

The ink-receiving layer may additionally contain white pigments, color substances, hardeners, dispersants, wetting agents u. Ä. Excipients included.

The application amount of the ink receiving layer is 0.5 to 10 g / m ² , preferably 2 to 7 g / m ² . The coating composition for the ink receiving layer can be applied with all customary application and dosing on the carrier who the, such. B. Walzenauftrag-, engraving or Nipp process such as Luftbürsten- or Rollrakeldosierung.

The coating composition was prepared as follows (amounts as in Examples 1 and 2):
An aqueous gelatin solution having a gelatin content of 20% by weight was added with stirring to water heated to 45 ° C. Thereafter, a cationically stabilized-based 32% aqueous emulsion of an oxidized polyethylene was added with stirring. The mixture was adjusted to pH = 8.5 using sodium hydroxide solution.

The addition of further components was carried out in Example 1 and 2 given order, taking between each Additions a stirring time of about 3 to 5 minutes complied shall be. After addition of the last component, the Mi The mixture was stirred for a further 30 minutes at 45 ° C and at closing processed.  

The polyolefin used to coat the base paper is preferably low density polyethylene (LDPE) and / or high density polyethylene (HDPE). But also other polyols fine, such. B. LLDPE or polypropylene can be used who the. The order quantity of the polyolefin coating, which may additionally contain pigments and other additives, be at least 5 g / m ² .

It was surprising that a combination of the hydrophilic Binder with an oxidized polyethylene, which in the aqueous coating composition in the form of a cationic active presented emulsion, such an excellent printed image quality delivered. It was surprising because the hydrophilic Binder alone or in combination with an oxidized Polyethylene whose emulsion does not stabilize cationically was, did not deliver correspondingly good results.

The gloss of the novel recording material neces does not require any additional post-treatments, eg. B. by means of a Gloss calender.

Surprisingly, the very good color density even without Pigmentation of the ink receiving layer reached.

In addition, a good water resistance and Ab is also rubbing resistance of the printed images.

The following examples are intended to explain the invention in more detail.  

Example 1

The front of one described below polyethylene-coated base paper. (The back of the base paper with a basis weight of 175 g / m² was coated with clear polyethylene in an order quantity of 15 g / m².) was used with the coated following coating compositions (Table 1):

Other experimental conditions:

- Machine speed: 100 m / min Drying temperature: 100 ° C - Drying time: 1-2 minutes

The front was made with pigmented polyethylene mixture
(37% LDPE with d = 0.934 g / cc, MFI = 3.0;
43% HDPE with d = 0.959 g / cc, MFI = 8.0;
20% TiO₂ masterbatch with 50 wt .-%, MFI 15)
coated at a rate of 12 g / m².

The front had the following colorimetric values:
L = 98.0, a = -0.2, b = + 1.6.

The resulting recording material was in a "continuous ink jet printing" process printed and on then analyzed. The results are in Table 1 too compiled.  

example 2

The front of a polyethylene-coated base paper according to Example 1 was with the following coating compositions coated:

The other experimental conditions were as in Example 1.

The test results are summarized in Table 1.

Comparative Examples

V1. Gela was used as binder for the coating composition used alone. On the addition of cationic stabilizers Lisiertem oxidized polyethylene was omitted.

The other experimental conditions were as in Example 1.

V2. For the coating composition in addition to gelatin use non-ionic stabilized oxidized polyethylene det.

The other experimental conditions were as in Example 1.

The ink receiving layers according to V1 and V2 were from aq in the following composition:  

The recording method obtained in Comparative Examples terial was in a continuous inkjet process be prints and then analyzes. The results are in Table 2 is compiled.  

Testing of according to Example 1-2 and Comparative Example V1-V2 produced recording material

The recording material was recorded by means of an after Hertz Inkjet Principle Working Excelerator 4/1120 inkjet printer from the company Stork X-cel under use the inks developed by Stork. In the printed images obtained were color density, abrasion strength, water resistance and gloss examined.

Density measurements were made before and after 24 h loading clearing the images by means of a xenon lamp. This used device was an original reflection densitometer 505-45. The measurements were made in the color gradations F1-F6 for the colors cyan, magenta, yellow and black, where in the tables are given the values for F1 and F6.

The smudge resistance was determined by the degree of so-called. "Beating away" the ink from the surface of the Materials assessed. The test was for all four primary colors individually performed. The term "+" means that all Colors alike immediately from the leaf surface "knock off", d. H. penetrate into the interior of the layer. The designation "o" means that 3 primary colors are immediately deleted from penetrate the leaf surface into the layer interior and the fourth base color only after a few seconds. With "-" was a bad smudge resistance of the material denotes, d. H. there will be no or only weak Penetration of almost all colors is observed.  

For the water resistance and abrasion resistance test the recording material pattern is heated in water and in Ab stained at 5 ° C with a finger. The temperature, at the white background of the recording material Seems to be a measure of water resistance and abrasion resistance taken.

The gloss of the recording material was measured with a Dreiwin kel-Glanzmeßgerät according to Dr. med. Long at a measuring angle of 60 ° C measured.

The results summarized in Tables 1 and 2 show that with the recording material according to the invention Printed images with high color density values at the same time tig quickly reachable smudge resistance can be achieved. But also in terms of water and abrasion resistance and the Gloss are those produced according to the invention printed images better than Ver same material.  

Table 1

Characteristics of the printed and prepared according to Example 1 and 2 recording material

Table 2

Properties of the printed recording medium prepared according to Comparative Example 1-2

Claims (20)

An ink jet recording material comprising a support and an ink receiving layer containing a binder thereon, characterized in that the ink receiving layer disposed on the support comprises a hydrophilic binder and an oxidized polyethylene, wherein the oxidized polyethylene is as described in U.S. Pat An aqueous coating composition used in the ink receiving layer is present as a cationically emulsified oxidized polyethylene. 2. Recording material according to claim 1, characterized characterized in that the carrier is a polyolefin-coated Base paper or a plastic film is. 3. Recording material according to claim 1 and 2, characterized characterized in that the hydrophilic binder a proteinaceous binder. 4. Recording material according to claim 3, characterized indicates that the hydrophilic binder is gelatin. 5. Recording material according to claim 1 to 4, characterized ge indicates that the oxidized polyethylene is one with compounds from the group of fatty amines, fatty amine acetates, quaternary Ammonium compounds u. Ä. cationically emulsified oxidized Polyethylene is.   6. Recording material according to claim 5, characterized records that the oxidized polyethylene with a Stearyl fatty amine acetate cationically emulsified oxidized poly is ethylene. 7. Recording material according to claim 1 to 6, characterized ge indicates that the amount of cationically emulsified oxi polyethylene in the ink receiving layer used coating composition between 0.1 to 5 wt .-% be wearing. 8. Recording material according to claim 1 to 7, characterized ge indicates that the amount of binder in the inks receiving layer at least 50 wt .-% is. 9. Recording material according to claim 1 to 8, characterized ge indicates that the ink-receiving layer additionally contains pigments, Dyes, curing agents, dispersing agents, wetting agents u. Ä. Excipients contains. 10. Recording material according to claim 1 to 9, characterized ge indicates that the carrier is a polyethylene-coated Ba sis paper is.   11. A recording material according to claim 1 to 10, characterized in that the application rate of the polyolefin coating on the base paper is at least 5 g / m ² , preferably 10 to 35 g / m ² . 12. coating composition for producing a Tintenaufnah Layer for the jet ink process, characterized in that a hydrophilic binder and a cationically emulsified contains oxidized polyethylene. 13. Coating composition according to claim 12, characterized gekenn indicates that the oxidized polyethylene is one with compounds the group of fatty amines, fatty amine acetates, quaternary Ammonium compounds u. Ä. cationic emulsified oxidized Polyethylene is. 14. Coating composition according to claim 13, characterized gekenn records that the oxidized polyethylene with a Stearyl fatty amine acetate cationically emulsified oxidized butt is lyethylene. 15. Coating composition according to claim 12 to 14, characterized indicates that the amount of cationically emulsified oxi diert polyethylene in the coating composition 0.1 to 5 wt .-% is. 16. Coating composition according to claim 12 to 15, characterized ge indicates that the hydrophilic binder is a proteinaceous Binder is, in particular gelatin.   17. Coating composition according to claim 12 to 16, characterized ge indicates that the amount of binder in Beschich mass is at least 30% by weight. 18. Coating composition according to claim 12 to 17, characterized ge indicates that they additionally pigments, dyes, Här agents, dispersants, wetting agents u. Ä. Excipients contains. 19. Coating composition according to claim 12 to 18, characterized ge indicates that they are based on a polyolefin-coated base paper, in particular polyethylene-coated base paper is applied. 20. Coating composition according to claim 12 to 18, characterized characterized in that it is applied to a plastic film.